The present invention relates to a self-wringing flat mop, particularly to a self-wringing flat mop having a self-wringing feature and including a transmission assembly able to undertake engagement-disengagement actions.
Nowadays, customers demand higher and higher performance to the household cleaning appliances. The traditional mops, which need manually wringing with hands, have been gradually rejected by customers because of unwholesomeness.
The related manufacturers had proposed various solutions to the abovementioned problem, including patents of TW M420300, US2011/239389 and U.S. Ser. No. 14/372,263 (published as US 2015-0113750 A1), the whole contents of which are expressly incorporate by reference in the present application for disclosure purposes. The patent U.S. Ser. No. 14/37,226 disclosed a self-wringing flat mop, which comprises a plate, a mop handle, a cleaning part, a rotation member, an outer ratchet, and a sleeve. The cleaning part is disposed under the plate. The plate includes a central plate and two side plates. Two ends of the central plate are respectively hinged with the two side plates via torsion springs. Two sides of the cleaning part are respectively connected with two outer sides of the side plates. The lower end of the rotation member is connected with a middle region of the cleaning part. The upper end of the rotation member is passed through a through-hole formed at the middle area of the plate and then non-rotatably connected with the mop handle. The outer ratchet sleeves the mop handle fixedly, and the sleeve spacer also sleeves the mop handle correspondingly. The inner wall of the sleeve includes an inner ratchet corresponding to the outer ratchet. The sleeve is non-rotatably connected with the upper area of the central plate. The user directly turns the mop handle to actuate the plate to collapse and wring water out of the cleaning part.
In practical operation, if the user should turn the mop handle with an inappropriate action, the mop may spin wholly. In such a case, the wringing effect would be degraded obviously.
The primary objective of the present invention is to solve the problem of the conventional self-wringing flat mop structure.
This problem is solved by a self-wringing flat mop as claimed by claim 1. Further advantageous embodiments are the subject-matter of the dependent claims.
To achieve the abovementioned objective, the present invention proposes a self-wringing flat mop, which comprises a flat mop head, a cleaning part, a mop handle, and a holding sleeve. The flat mop head further comprises a central plate and two side plates. Two sides of the central plate are respectively hinged with the two side plates via torsion springs. The central plate comprises a connection through-hole. Two ends of the cleaning part are respectively assembled to the two side plates. The cleaning part comprises an insertion-connection member corresponding to the connection through-hole, which is particularly inserted into the connection through-hole for connection. The mop handle further comprises a connection rod assembled to the central plate, a holding rod disposed coaxially with the connection rod, and a transmission assembly arranged between the connection rod and the holding rod. The connection rod comprises a control member penetrating the connection through-hole and connected with the insertion-connection member. The holding rod is operated by a user during operation to rotate, particularly to generate a rotating force exerted on downstream members. The transmission assembly transmits this rotation to the connection rod. The rotating connection rod turns the cleaning part through the control member to make (cause) the two side plates collapse and wring water out of the cleaning part. The transmission assembly comprises a first engaging member and a second engaging member, which are able to undertake engagement-disengagement operation. The first engaging member normally contacts the second engaging member. The rim of the first engaging member comprises a guiding member. The holding rod comprises a limiting rib. The holding sleeve is assembled corresponding to the transmission assembly and sleeves the mop handle. The holding sleeve further comprises a control lever pivotally installed with respect to the guiding member and a unidirectional limiting ring corresponding to the limiting rib. The control lever comprises a protruding trigger protruding from the holding sleeve and contacting the guiding member, and a levering element connected with the protruding trigger. The levering element is driven during operation to turn pivotally with respect to the holding sleeve and make the protruding trigger slide on the guiding member, whereby the first engaging member and the second engaging member are separated from each other. The unidirectional limiting ring comprises a plurality of ratchet teeth arranged annularly, particularly disposed along the circumference of the limiting ring at equiangular spacings, and facing the mop handle. The ratchet teeth confine the limiting rib to slide unidirectionally and confine the mop handle to turn in a single direction.
According to a further embodiment, the transmission assembly further may comprise a guiding rod; one end of the guiding rod is fixedly installed in the holding rod, and the other end of the guiding rod is fixedly installed in the second engaging member; the first engaging member sleeves the guiding rod and can move along the guiding rod to and fro.
According to a further embodiment, the mop handle further may comprise a first elastic element disposed in one side of the holding rod, which faces the first engaging member, and pressing against the first engaging member.
According to a further embodiment, the holding rod further may comprise a guiding ridged member facing the first engaging member; the first engaging member may comprise a guiding notched member facing the holding rod and matching the guiding ridged member.
According to a further embodiment, the holding rod further may comprise at least two first support poles and a bridging seat disposed between the two first support poles; wherein the bridging seat has an accommodation space, a limiting member disposed inside the accommodation space and extended far away from the accommodation space to form the limiting rib, and a second elastic element disposed inside the accommodation space and pressing against the limiting member.
According to a further embodiment, the connection rod may comprise at least one second support pole and a swivel joint connected with the second support pole and bridged with the central plate; wherein one side of the second support pole, which faces the second engaging member, comprises a positioning member used to fix the second engaging member; the second engaging member comprises a press-fit member corresponding to the positioning member; the swivel joint comprises a plurality of interlaced branch joints.
According to a further embodiment, the holding sleeve may further comprise a sleeve body where the control lever and the unidirectional limiting ring are disposed, a connection sleeve connected with the sleeve body, and a protection sleeve connected with the connection sleeve and pivotally coupled to the central plate for protecting the swivel joint.
According to a further embodiment, the control lever may further comprise a pivotal axis for pivotal coupling of the control lever and the holding sleeve, and a restoring spring sleeving the pivotal axis and providing resilience for the levering element.
According to a further embodiment, one side of the first engaging member, which faces the second engaging member, may comprise a first ratchet structure; one side of the second engaging member, which faces the first engaging member, may comprise a second ratchet structure.
In comparison with the conventional technology, the self-wringing flat mop according to the present invention particularly has the following characteristics and advantages:
According to the present invention a unidirectional limiting ring and a limiting rib are provided, which can substantially prevent from inappropriate spin of the mop handle in the wringing process. According to the present invention further a transmission assembly and a control lever are provided, whereby the flat mop can be easily restored to the original state after the wringing process. According to the present invention the user may be exempted from touching the cleaning part installed on the flat mop head, thus providing a wholesome solution to the conventional flat mop, particularly a more convenient operation for a user.
The technical contents of the present invention will be described in detail in cooperation with drawings below.
Referring to
The mop handle 2 further comprises a connection rod 21 assembled to the central plate 11, a holding rod 22 disposed coaxially with the connection rod 21, configured to be held by a user during use, and a transmission assembly 23 arranged between the connection rod 21 and the holding rod 22. The transmission assembly 23 includes a first engaging member 231 and a second engaging member 232, which are able to undertake engagement-disengagement actions.
In one embodiment, the first engaging member 231 is disposed near the holding rod 22, and the second engaging member 232 is disposed near the connection rod 21, and the first engaging member 231 normally contacts the second engaging member 232. One side of the first engaging member 231, which faces the second engaging member 232, includes a first ratchet structure 233. One side of the second engaging member 232, which faces the first engaging member 231, includes a second ratchet structure 234. The first ratchet structure 233 cooperates with the second ratchet structure 234 to enable the engagement of the first engaging member 231 and the second engaging member 232 and the linked actions. The rim of the first engaging member 231 includes a guiding member 235. In one embodiment, the guiding member 235 is an inclined groove extended toward the second engaging member 232, as shown in
The transmission assembly 23 further includes a guiding rod 236. One end of the guiding rod 236 is fixedly installed in the holding rod 22, and the other end of the guiding rod 236 is fixedly installed in the second engaging member 232. The first engaging member 231 sleeves the guiding rod 236 and can move along the guiding rod 236 to and fro. The mop handle 2 further comprises a first elastic element 24 disposed in one side of the holding rod 22, which faces the first engaging member 231, and pressing against the first engaging member 231. The first elastic element 24 normally provides a compressing force to the first engaging member 231 to make the first engaging member 231 normally contact the second engaging member 232. The holding rod 22 further includes a guiding ridged member 221 facing the first engaging member 231. The first engaging member 231 includes a guiding notched member 237 facing the holding rod 22 and matching the guiding ridged member 221.
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Number | Date | Country | Kind |
---|---|---|---|
2015 2 0278185 U | Apr 2015 | CN | national |
2015 2 0280342 U | Apr 2015 | CN | national |
Number | Name | Date | Kind |
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8978191 | Yu | Mar 2015 | B2 |
9307882 | Zhu | Apr 2016 | B2 |
20110239389 | Ting | Oct 2011 | A1 |
20150113750 | Zhu | Apr 2015 | A1 |
Number | Date | Country |
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M420300 | Jan 2012 | TW |
Number | Date | Country | |
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20160316984 A1 | Nov 2016 | US |